ライフサイエンスコーパス: anodic

1 ode and a biocathode, alternately catalyzing anodic acetate oxidation (Coulombic efficiency (CE) 85.3

2 matic increase in catalytic rate, induced by anodic activation of the electrodeposited films, is acco

3 spectroscopy (RIfS) combined with nanoporous anodic alumina (NAA) platforms when detecting different

4 Porous anodic alumina (PAA) films are widely used as templates

5 onfinement of rigid PIM-1 in the channels of anodic alumina causes reduction of small-scale mobility

6 New composite membranes based on porous anodic alumina films and polymer of intrinsic microporos

7 ments, as thin films and within the pores of anodic alumina membranes (AAMs), respectively.

8 on of cylindrical Au-Ru rods in the pores of anodic alumina membranes, dissolution of the template me

9 tion of chemically functionalized nanoporous anodic alumina photonic films (NAA-PFs) and reflectometr

10 ering and optical optimization of nanoporous anodic alumina rugate filters (NAA-RFs) for real-time an

11 human serum albumin by combining nanoporous anodic alumina rugate filters (NAA-RFs) modified with hu

12 Highly ordered nanoporous anodic aluminium oxide (AAO) fabricated by electrochemic

13 roximately 10 microF cm-2 for 1-microm-thick anodic aluminium oxide and approximately 100 microF cm-2

14 s of metal-insulator-metal nanocapacitors in anodic aluminium oxide nanopores.

15 electrolyte confined within the nanopores of anodic aluminium oxide, as an all-in-one nanosize device

16 ximately 100 microF cm-2 for 10-microm-thick anodic aluminium oxide, significantly exceeding previous

17 deposition from dual templates using porous anodic aluminum oxide (AAO) membranes with silica nanosp

18 o-3-phosphocholine (DOPC) vesicles on porous anodic aluminum oxide (AAO) membranes, creating sealed a

19 s to nanoporous block-copolymer monoliths to anodic aluminum oxide (AAO) membranes.

20 e obtained by using R2R UV-NIL technique and anodic aluminum oxide (AAO) mold.

21 n of glycine in the cylindrical nanopores of anodic aluminum oxide (AAO) revealed the formation of me

22 ased on the nanostructured aluminum oxide or anodic aluminum oxide (AAO) surface is reported.

23 rayed nanopore-based sensors fabricated from anodic aluminum oxide (AAO) thin film, offers improved s

24 The anodic aluminum oxide alignment method is applicable to

25 Anodic aluminum oxide substrates with macroscopically al

26 mically grown metal nanorod arrays in porous anodic aluminum oxide templates.

27 We show that by designing our anodic and cathodic bioelectrocatalysts with osmium base

28 errucaria bilirubin oxidase (MvBOx), used as anodic and cathodic bioelements, respectively, were immo

29 Myrothecium verrucaria bilirubin oxidase as anodic and cathodic bioelements, respectively.

30 ase (PQQ-GDH) and laccase functioning as the anodic and cathodic catalyst, respectively.

31 x enzyme) materials functioning as efficient anodic and cathodic catalysts, respectively.

32 ron mediators as evidenced by the concurrent anodic and cathodic currents, respectively.

33 oduced by ionic liquid assisted simultaneous anodic and cathodic electrochemical exfoliation of iso-m

34 idase and bilirubin oxidase were selected as anodic and cathodic enzymes, respectively.

35 ers are usually evaluated separately for the anodic and cathodic half-cell reactions in a three-elect

36 In doing so, both the anodic and cathodic half-reactions yield desirable produ

37 system II and hydrogenase for performing the anodic and cathodic half-reactions, respectively.

38 mV s(-1) at 100 mV s(-1)) and the asymmetric anodic and cathodic peak currents indicate that the elec

39 perelastic shape memory NiTi alloys leads to anodic and cathodic peak potential shifts by up to ~30 m

40 is sufficient to carry out reactions on the anodic and cathodic poles of a bipolar electrode (BPE).

41 ed active chlorine, and the coupling between anodic and cathodic processes.

42 steps shows symmetric ECL transients during anodic and cathodic pulses, while for anion (A(-*))-dica

43 d in biofilms are described to catalyze both anodic and cathodic reactions in bioelectrochemical syst

44 d as a mixed type inhibitor by reducing both anodic and cathodic reactions.

45 ame electron transfer conduit for catalyzing anodic and cathodic reactions.

46 The anodic and cathodic signals each contain two electrons o

47 rking electrodes followed by analysis of the anodic and cathodic signals of the reconstituted protein

48 s were analyzed using the differential pulse anodic and cathodic stripping voltammetry technique.

49 by comparing ECL responses obtained from the anodic and the cathodic potential scanning; TATP produce

50 inary egg excretion to levels of circulating anodic antigen, a Schistosoma-specific antigen that is s

51 tes estimated from the experimental depth of anodic attack profile of AE44-MS couple are validated by

52 Under modest anodic bias (just anodic of flatband), this space charge

53 Anodic bias significantly retards hematite recombination

54 ination requires the application of stronger anodic bias, and is a key reason why the onset potential

55 he semiconductor/electrolyte interface under anodic bias.

56 tive enzyme and in presence of sulphite high anodic bioelectrocatalytic currents were generated with

57 owered biosensor, in which both cathodic and anodic bioelectrocatalytic reactions are powered by the

58 surface charge and surface hydrophobicity on anodic biofilm formation, biofilm community composition,

59 Finally, this study shows that anodic biofilm selection and maturation is still occurri

60 electroactivity, and community structure of anodic biofilms were examined over a wide range of set a

61 and the communities characteristic of these anodic biofilms will be a valuable aid in improving the

62 An analysis of the frequency of anodic blips compared to theory implies that the require

63 We further show that the anodic blips in detecting nickel increase in intensity u

64 t-GMNPs-GO-L-AgNPs were introduced to a gold anodic BPE array, the individual electrodes were subject

65 reduced TiO2 negative surface charge due to anodic capacitance.

66 Typically, these systems involve anodic carbon oxidation and cathodic denitrification cat

67 ansition metal with a cheap, easy-to-prepare anodic catalyst oxidizing water into O2.

68 the other species to be determined from its anodic (cathodic) current.

69 It perturbs the anodic/cathodic response of the cell covered biosensor b

70 the AOP, the solution was passed through an anodic chamber to lower the solution pH and remove the r

71 The active biocatalyst in the anodic chamber was a mixed culture of microorganisms.

72 ux across an anion exchange membrane into an anodic chamber, resulting in a clean acid concentrate wi

73 n reducing the overpotential associated with anodic CO oxidation and minimize the amount of Pt used,

74 roduction in MFCs, a better understanding of anodic communities is essential.

75 acitive electrode that was inserted into the anodic compartment of an MFC to form a capacitive bioano

76 riboflavin, the phototrophic biomass in the anodic compartment produced an electrical current in res

77 Subsequent anodic conditioning from voltage cycling or water oxidat

78 The activity of the catalyst was promoted by anodic conditioning, which was proposed to form amorphou

79 t the catalyst exhibits good stability under anodic conditions, with no observable evidence for the d

80 tion (PBS) containing AFB1, the magnitude of anodic current at 50 mV s(-1) is 825, 615, and 550 mA cm

81 The anodic current density of the metal film increased, whil

82 fect of photosynthetically evolved oxygen on anodic current generation in the presence of riboflavin

83 These observations indicated that anodic current in the higher (>0 V) window is due to act

84 The anodic current increases with rising analyte concentrati

85 overpotential (eta) of 400 mV for OER at an anodic current of 10 mA cm(-2) .

86 n a screen-printed carbon electrode from the anodic current of the enzymatic product.

87 sis of AA revealed a concentration-dependent anodic current with a slope of 2.37 and a limit of detec

88 linity is assessed by chronopotentiometry at anodic current.

89 t one species exhibits exclusively cathodic (anodic) current, allowing the other species to be determ

90 osphate salt isoquinolinium (-)-8b including anodic cyanation as an efficient means to activate the s

91 WNT electrodes are deployed as amperometric (anodic) detectors in microfluidic cells, produced by mic

92 partial reaction is enhanced as a result of anodic dissolution.

93 hing effect of nitrofuran antibiotics on the anodic ECL of Ru(bpy)3(2+) CdTe-QDs was found to be sele

94 First, a mature anodic electroactive biofilm was developed from an activ

95 Samples were prepared via an anodic electrochemical etching procedure, resulting in p

96 of a series of NIMS substrates generated by anodic electrochemical etching.

97 ewater was used as the inoculum in CMFCs for anodic electrogenic bacteria that were fully acclimated

98 proven by electrodissolution of Ag from the anodic end of the BPE.

99 olyethylene oxide gel which is placed at the anodic end of the capillary.

100 of glucose, cofactor and electrolytes to the anodic enzyme and the gas-diffusional cathode design pro

101 us silicon nanoparticles (NPs), obtained via anodic etching of Si wafers, as a basis for undecylenic

102 The GNs produced by anodic exfoliation increase the MFC peak power density b

103 conduction in the morphological stability of anodic films.

104 For the first time, we prove here that both anodic focusing (AF) and cathodic focusing (CF) regimes

105 role of the hydroxyl radical ((*)OH) in the anodic formation of sulfate radical (SO4(*-)) species.

106 Here an anodic galvanostatic current pulse is applied across the

107 n particular for the oxygen evolution in the anodic half cell reaction, is an important challenge in

108 rsion efficiency, mainly due to the sluggish anodic half reaction, the O2 evolution reaction (OER), w

109 ia transportable and storable fuels, but the anodic half-reaction of water oxidation is an energy int

110 drop of bacteria-containing anolyte into the anodic inlet and another drop of potassium ferricyanide

111 ur investigation on the reversibility of the anodic lithium inside of an operating lithium-air batter

112 atteries is based on the assumption that the anodic lithium is completely reversible during the disch

113 ormance, electron flux to various sinks, and anodic microbial community structure in two-chambered ME

114 uch conditions the arc operates in so-called anodic mode with the anode material being consumed by ev

115 ractions between the viral particles and the anodic MWNTs.

116 The sluggish anodic O2 evolution reaction (OER) always results in low

117 in hematite photoanodes is typically ~500 mV anodic of flat band and therefore needs to be accounted

118 Under modest anodic bias (just anodic of flatband), this space charge layer enables the

119 Anodic olefin coupling reactions using a tosylamine trap

120 hosen, either in the cathodic side or in the anodic one.

121 Under anodic operation in 1.0 M aqueous potassium hydroxide (p

122 ode potential to temporarily favor either an anodic or cathodic reaction may represent a unique metho

123 trode showed a remarkable improvement in the anodic oxidation activity of OME due to the enhancement

124 ring-forming dehydrogenation is initiated by anodic oxidation at a graphite surface.

125 study, the reactivity of FeSx particles for anodic oxidation at pH 4 was studied as a function of ti

126 istics, pH sensitivity and stability against anodic oxidation common to hydrogen terminated diamond S

127 lic voltammograms of short GONRs show higher anodic oxidation currents for AA, UA, and DA.

128 s been used for accurate transduction of the anodic oxidation currents generated on the surface of im

129 rmation of electroauxiliaries and subsequent anodic oxidation has been developed.

130 In the first step, anodic oxidation in MeOH using a repurposed power source

131 es were synthesized in aqueous solutions via anodic oxidation of 2,5-diethoxy-4-morpholinoaniline in

132 ntage of ethynyl-based radicals generated by anodic oxidation of a lithio-activated terminal ethynyl

133 The indirect anodic oxidation of chalcone epoxides in the presence of

134 se metal complexes, which are generated upon anodic oxidation of ethyl and diethyl carbonates at Li(x

135 The anodic oxidation of five diaryldisulfides have been stud

136 dox molecule cause a significant drop in the anodic oxidation of LSV.

137 four times higher mass activity towards the anodic oxidation of methanol, and 3.6 times higher mass

138 a second one (II) involving also the direct anodic oxidation of the Ru(II) moieties.

139 The fact that OH-radicals can be produced by anodic oxidation of water at elevated positive potential

140 or ([Fe(CN)6](3-)), to measure the change in anodic oxidation peak current arising due to the specifi

141 Furthermore, the anodic oxidation reactions are very clean, producing onl

142 to a tetra-alkylammonium moiety allowed for anodic oxidation to be performed without supporting elec

143 e electrochemical dimerization proceeded via anodic oxidation to the radical cation and monitored by

144 ard pristine titania nanotubes fabricated by anodic oxidation.

145 ated with conductive atomic-force-microscope anodic oxidation.

146 arded as very difficult to grow self-ordered anodic oxide structures.

147 here the oxide is somewhat soluble, produces anodic oxides with highly regular arrangements of pores.

148 icated that microbial growth was promoted by anodic oxygen-generating reactions.

149 tion was determined using the differences at anodic peak (+0.1V).

150 trons per nickel site comprise the signature anodic peak at 1.32 V during the first oxidative scan, a

151 The indole-based SCs exhibited an anodic peak at approximately 1.5 V (vs Ag/Ag(+)) and app

152 e, which was indicated by the improvement of anodic peak current and a decrease in anodic peak potent

153 The anodic peak current of CA recorded by differential pulse

154 E(NADH), and, additionally, it increased the anodic peak current of NADH.

155 additive further enhanced the LSV response (anodic peak current, Ipa) of BHA and BHT by 2- and 20-ti

156 The anodic peak did not increase in the presence of glucose

157 The dynamic behavior of the anodic peak for amorphous nickel oxy/hydroxide (a-NiOx)

158 hich is explained by a broader than expected anodic peak for the oxidation of conducting polymer.

159 ased anodic-to-cathodic peak separations and anodic peak full widths at half-maximum.

160 solute solution pH by postcalibration of the anodic peak position.

161 tion of NADH, as indicated by a shift in the anodic peak potential of NADH (E(NADH)) from 0.4 V to 0.

162 ent of anodic peak current and a decrease in anodic peak potential.

163 We also establish that the measured anodic peak potentials and electrophilic aromatic substi

164 The splitting of cathodic and anodic peak potentials as a function of scan rate provid

165 The anodic peak potentials of the titanocenes can be decreas

166 ution reaction (OER) was detected within the anodic peak, which is at a lower potential than is widel

167 he modified electrode surface to produce two anodic peaks at 0.86 and 1.40 V (vs. Ag/AgCl) in 0.1 mol

168 and DPV) results revealed two well-resolved anodic peaks for SY and Tz with remarkably increase in o

169 The anodic peaks of BPA and Sudan I in their mixture can be

170 eine and intercalation for morphine with two anodic peaks of codeine being merged into them when DNA

171 V and -0.305 V vs. Ag/AgCl for cathodic and anodic peaks, respectively.

172 We compared the anodic performance with a H2-producing microbial electro

173 ted that the catalyst generally enhanced the anodic photocurrent of the ZnO electrode with its effect

174 ed electron-hole pairs give rise to a stable anodic photocurrent whose potential- and pH-dependences

175 ctrodes showed n-type behavior by generating anodic photocurrent without applying an external bias (z

176 llumination, the n-(In,Ga)N NWs exhibited an anodic photocurrent, however, no O2 but only N2 evolutio

177 Second, under anodic polarization most metals inevitably corrode in su

178 Anodic polarization of Pt electrodes in aqueous H2SO4 le

179 on the inner platinum working electrode via anodic polarization using an inner alkaline electrolyte

180 eactive electrochemical membrane (REM) under anodic polarization.

181 high temperature acid treatment, followed by anodic polarization.

182 ntaneous drop of ~50% in SHG signal from the anodic pole of the cell.

183 n and dissolution of Ag metal present at the anodic pole.

184 ammetric properties of both the cathodic and anodic poles in a closed bipolar cell from a single cycl

185 the resulting ECL of luminol and H2O2 at the anodic poles is monitored using a photomultiplier tube (

186 After modification of anodic poles of the array with the DNA probe and its hyb

187 om oxidation of Cr microbands present at the anodic poles of the BPEs.

188 nd Ag electrodissolution at the cathodic and anodic poles, respectively, of bipolar electrodes (BPEs)

189 de allows the oxidation of Cys at a very low anodic potential (0.00 V vs. Ag/AgCl).

190 c triangle voltage excursions to an extended anodic potential at a scan rate of 400 V s(-1).

191 lectropolymerized POT SC for an hour at high anodic potential demonstrating that the ion-to-electron

192 ly modest activity when prepared by constant anodic potential deposition.

193 n circuit potentials, potentiodynamic scans, anodic potential holds, and electrochemical impedance sp

194 T calculations indicated that an increase in anodic potential resulted in a shift in p-methoxyphenol

195 Thus, application of an anodic potential scan or holding the potential of the el

196 An anodic potential scan partially oxidizes the POT film (t

197 Upon anodic potential scanning, HMTD irreversibly oxidized at

198 eas HMTD produced ECL upon both cathodic and anodic potential scanning.

199 transformations as a function of the applied anodic potential, with complete conversion of the Co(OH)

200 ol and p-methoxyphenol was a function of the anodic potential.

201 ressive oxidation to CoO(OH) with increasing anodic potential.

202 umarin formation, which is activationless at anodic potentials > 2.10 V/SHE.

203 aphene oxide is further oxidized at moderate anodic potentials (</= 1.3 V vs. Ag/AgCl).

204 ysis experiments were performed under static anodic potentials (+2.2 or +3.0 V NHE) using domestic wa

205 At low anodic potentials (1.7-1.8 V/SHE), p-nitrophenol and p-m

206 Increasing anodic potentials (1.9-3.2 V/SHE) resulted in the electr

207 ed with a stainless steel cathode at applied anodic potentials (Ea) of either +2.2 V or +3.0 V versus

208 dduct product 7-hydroxycoumarin was found at anodic potentials lower than that necessary for OH(*) fo

209 The use of waveforms with extended anodic potentials showed substantial increases in sensit

210 d COD adsorption for p-nitrophenol at higher anodic potentials was attributed to reaction of soluble/

211 However, the anodic potentials were too low for the 2e(-) DET reactio

212 es in HF, HCl or NaCl solutions and applying anodic potentials.

213 nd, and enables -N protonation at uncommonly anodic potentials.

214 h the cathodic ECL pulse is smaller than the anodic pulse due to the instability of the radical catio

215 , transient ECL shows asymmetry in which the anodic pulse is narrower than the cathodic pulse.

216 the location of heat-stable proteins in the anodic range of the IEF gels.

217 O(2)-Ag/Ag(2)O pump, protons produced in the anodic reaction 2Ag(s) + H(2)O --> Ag(2)O(s) + 2H(+) + 2

218 his reason Ag(+) ions introduced through the anodic reaction and by dissolution of Ag(2)O decrease th

219 Recent publications have shown that the anodic reaction between FeS and Hg can be used for elect

220 dic CO2-to-CO associated with an O2-evolving anodic reaction in high-energy-efficiency cells are not

221 voltammetric signature was monitored via the anodic reaction of tyrosine and tryptophan residues.

222 O/MnO2 composite significantly increased the anodic reaction rates and facilitated the electron trans

223 rtially (19%) neutralized the acidity of the anodic reaction.

224 gates the characterization and testing of an anodic reactive electrochemical membrane (REM) for water

225 The analytical signal was based on the anodic redissolution of enzymatically generated silver b

226 transfer processes in both the cathodic and anodic regimes.

227 D4 results in two well-resolved waves in the anodic region, and slight splitting of the cathodic wave

228 tential of -0.225 V and -0.075, cathodic and anodic respectively.

229 ace was electrochemically conditioned on the anodic scan and the irreversible oxidation of peroxide w

230 An anodic scan partially oxidizes the POT underlayer, which

231 potential and then stripped off by applying anodic scan range of -0.8 to +0.8 V using differential p

232 N-CNTs display an anodic sensitivity and limit of detection of 830 mA M(-1

233 ion and increased activity correlate with an anodic shift in the nominally Co(2+/3+) redox wave, indi

234 -IR region, greater spin delocalization, and anodic shift of the reduction potential only for 1S .

235 Complexation by CB7 led to a 12 mV anodic shift, while CB8 caused a larger 32 mV shift also

236 At operating voltage and anodic SOFC conditions, the model predicts that water de

237 e of Sr2Fe1.5Mo0.5O6 (SFMO) perovskite under anodic solid oxide fuel cell conditions.

238 d stripping efficiencies and relatively high anodic stabilities.

239 Despite the high anodic stability of these electrolytes, they are corrosi

240 /OFF" switchability in both the cathodic and anodic states.

241 We propose that the observed anodic steps have a PEC nature and are due to photooxida

242 rmed by cathodic deposition and evaluated by anodic stripping and subsequent ICPMS analyses.

243 Then, anodic stripping chronoamperometry was performed at +0.4

244 n of Cd, Cu, Pb and Zn in apple beverages by anodic stripping chronopotentiometry (ASCP) is presented

245 mechanistic study to provide diagnostics of anodic stripping electrode processes at bismuth-film ele

246 ition (UPD) and the amount of Au obtained by anodic stripping of Au in HCl solution was used to evalu

247 From the analysis of the anodic stripping plots obtained after subsequent additio

248 Comparing theoretical and experimental data, anodic stripping processes of zinc(II), cadmium(II), and

249 The differential pulse anodic stripping signal at functionalized graphene quant

250 interference that platinum generates on the anodic stripping signal of tin acidic solutions: in appr

251 current or charge signal, by the well-known anodic stripping technique.

252 Consequently, the differential pulse anodic stripping transduction was realized to be approxi

253 with the voltammetric cell for simultaneous anodic stripping voltammetric (ASV) determination of Pb(

254 ous in obtaining enhanced differential pulse anodic stripping voltammetric current vis-a-vis the corr

255 ell-resolved quantitative differential pulse anodic stripping voltammetric peaks on the proposed sens

256 uffer and serum samples, respectively, using anodic stripping voltammetric readout.

257 ds MSLN, is used to 'physically' amplify the anodic stripping voltammetric signal.

258 previously set up and optimized Square-Wave Anodic Stripping Voltammetric technique was used.

259 e of -0.8 to +0.8 V using differential pulse anodic stripping voltammetric technique.

260 maceutical samples, using differential pulse anodic stripping voltammetric technique.

261 old microelectrode surface was determined by anodic stripping voltammetry (ASV) after transferring th

262 In contrast, while anodic stripping voltammetry (ASV) also revealed five pe

263 For anodic stripping voltammetry (ASV) of Pb, our sensor sho

264 Anodic stripping voltammetry (ASV) performed at Hg/Pt UM

265 ative reductive potential of Mn required for anodic stripping voltammetry (ASV), so cathodic strippin

266 ation of trace levels of heavy metal ions by anodic stripping voltammetry (ASV).

267 ation of trace levels of heavy metal ions by anodic stripping voltammetry (ASV).

268 O2 using a bare disk gold macroelectrode and anodic stripping voltammetry (ASV).

269 ing the determination of cadmium (Cd(2+)) by anodic stripping voltammetry (ASV).

270 icrocell were assessed by differential pulse anodic stripping voltammetry (DPASV) determinations, at

271 ions were determined with Differential Pulse Anodic Stripping Voltammetry (DPASV).

272 of copper as a model system by linear sweep anodic stripping voltammetry (LSASV).

273 ermination of mercury in tuna of square wave anodic stripping voltammetry (SW-ASV) conducted at both

274 ent electrochemical detection by square wave anodic stripping voltammetry (SWASV) in 0.1M HNO3.

275 ction of QDs was performed using square wave anodic stripping voltammetry (SWASV).

276 use they can carry out slow, high-resolution anodic stripping voltammetry approaches and imaging in c

277 s was performed using the differential pulse anodic stripping voltammetry method.

278 Anodic stripping voltammetry of zinc using our new coppe

279 bon electrodes, was performed by square-wave anodic stripping voltammetry through the use of CdS nano

280 n buffered potassium chloride solution using anodic stripping voltammetry to directly measure dissolv

281 Using differential pulse anodic stripping voltammetry we calibrated a 30 mer sequ

282 s of this concept have been studied by using anodic stripping voltammetry with Cd(2+) and Pb(2+) as t

283 exes; but such measurements (particularly by Anodic Stripping Voltammetry) should nonetheless often p

284 Total Cu was measured using anodic stripping voltammetry, and free Cu(2+) was measur

285 trochemical signal of AgNPs followed through anodic stripping voltammetry.

286 ) in neutral pH could be determined by using anodic stripping voltammetry.

287 he Pb(II) released was determined in situ by anodic stripping voltammetry.

288 emical detection was obtained by square wave anodic stripping voltammetry.

289 er nitrate, metallic silver is determined by anodic stripping voltammetry.

290 By employing two distinct scan rates in each anodic sweep of this analyte-specific waveform, we have

291 of micelles in solution results in decreased anodic-to-cathodic peak separations and anodic peak full

292 onditions to limit ClO4(-) production during anodic treatment of organic compounds.

293 nd for predicting the conditions under which anodic treatment of wastewater will be practical.

294 After the potential is increased to a highly anodic value of 1.8 V vs RHE, relevant to the OER, we ob

295 the k(et) increases and E(0') shifts to more anodic values as the distance between the AQ moiety and

296 The anodic voltammetric response, corresponding to the catal

297 g the technological relevance of oxide-based anodic water electrolyzer catalysts.

298 At high DNA concentrations, a sharp anodic wave for codeine and a clear discrimination of co

299 gave voltammograms featuring two unresolved anodic waves corresponding to the oxidation of different

300 Anodic waves that were recorded around -0.45 V (vs Ag/Ag